Embodiment
Now, with reference to image processor and the image treatment method of appended graphic detailed description foundation performance fruit of the present invention mountain range landforms and the example embodiment of using the virtual golf analog machine of these apparatus and method.
Can be applied to the virtual golf analog machine according to image processor of the present invention and image treatment method, such as so-called screen golf system, wherein the user directly carries out golf, uses and realizes the virtual golf simulation.In addition, image processor of the present invention and image treatment method can be applied to via such as the game console of the family expenses of intelligent mobile phone or mobile communication terminal and the golf game that arranges.
At first, with reference to figure 1, with describe in detail according to inventive embodiments as the schematic structure for the treatment of apparatus and use this as the schematic structure of the virtual golf emulator for the treatment of apparatus.Fig. 1 schematically shows the synoptic diagram of structure that uses the virtual golf emulator of image processor according to the embodiment of the invention.
The virtual golf emulator of the embodiment of the invention can comprise emulator S, actuation means 50, sensing apparatus 40 and image output device 20.
Actuation means 50 offers the user and controls (such as inputting user's information, set virtual environment, changing impact point of golf ball-batting etc.) to carry out necessity during virtual Gao Er simulation
The movement of golf and/or golf clubs when sensing apparatus 40 provides and uses golf clubs to knock golf with the sensing user.This sensing apparatus can comprise different types of sensor, such as image sensing type sensor, infrared light emission/reception type sensor and laser type sensor.
Image output device 20 is to be received from the signal of video signal of emulator S to the device of screen in order to output.But in the so-called screen golf of this image output device mat system image projecting is realized to the projector of its place ahead screen.
Emulator S processes the background video of virtual golf course, and transmits background video to the image output device 20 of exporting background video.And, the emulator image processing is according to the track of the golf that is calculated by the result of 40 sensings of sensing apparatus, so that the track of golf can simulate in virtual golf course, and transmit the golf track to the image output device 20 of exporting the golf track.
Particularly, emulator S preferably includes in order to the simulation process device M of the as a result simulative golf track of 40 sensings of foundation sensing apparatus and in order to carry out image processing with the image processor 10 of the simulating image of realizing virtual golf course and golf track.
Fig. 1 show image treating apparatus 10 is applied to the situation of the emulator S of virtual golf emulator, yet the present invention is not subject to this.For example, image processor 10 may be used on realizing intending all devices of golf course image, especially the image of the image in fruit mountain range and fruit mountain range landforms (for example, image processor may be used on the golf game that utilizes computing machine, game machine, intelligent mobile phone etc. to carry out by the user, replaces the virtual golf game that utilizes true golf clubs to carry out by the user).
Image processor 10 comprises golf course implement device 11, landforms indication device 12, color change display device 13 and database 14.
Golf course implement device 11 is hole cup and the golf on the fruit mountain range used of a kind of device of realizing virtual golf course in order to preset image processing, especially push rod and the fruit mountain range.That is golf implement device system extracts and processes and is stored in the database 14 about realizing the data of golf course image, and via image output device 20 output virtual golf course images.
Landforms indication device 12 is a kind of in order to realizing the device of image, and the user can be from this image identification fruit mountain range landforms easily, that is geomorphology information.Particularly, landforms indication device 12 is a kind of devices that move and carry out image processing with pre-set velocity in order to portable cord or mobile grid on the control fruit mountain range, so that the bending when mobile of the shape of portable cord or mobile grid hereinafter will describe in detail with the variation of response fruit mountain range landforms curvature.
Color change display device 13 is a kind of in order to carry out the device of image processing, so that the variation of at least one of them landforms height that moves according to portable cord or mobile grid of choosing brightness, degree of saturation and the colourity of color on portable cord or mobile grid and changing will describe in detail below.
Database 14 provides to store the necessary data of processing above-mentioned all images.
With hardware characteristics, golf course implement device 11, landforms indication device 12 and color change display device 13 can be embodied as the Single Controller of the function that is configured to carry out said apparatus, or are configured to carry out respectively the controller of separation of the function of said apparatus.With software feature, golf course implement device 11, landforms indication device 12 and color change display device 13 can be embodied as the single program of the function that is configured to carry out said apparatus, or are configured to carry out respectively the program of separation of the function of said apparatus.
The different instances that is provided for showing landforms on the fruit mountain range by foundation image processor of the present invention below will be described.
At first, with reference to figure 2, explanation is provided for showing the example of landforms on the fruit mountain range by foundation image processor of the present invention.
As shown in Figure 2, the image of realizing according to image processor of the present invention comprises the image of fruit mountain range G, the image of the upper hole cup H of fruit mountain range G and the image of the upper golf ball B of fruit mountain range G.
And, set the specific region of the upper hole cup H of fruit mountain range G and golf ball B, and carry out image and realize, so that the portable cord 100 of preset length is mobile in the setting district.
That is as shown in Figure 2, portable cord 100 produces in the position at golf ball B place (state L1), and moves to step by step hole cup H via state L2, L3, L4, L5, L6 and L7.
At this moment, as shown in Figure 2, portable cord 100 moves, and the shape of portable cord 100 changes in response to the variation of the landforms curvature in zone between golf ball B and the hole cup H.
That is portable cord 100 moves, and as portable cord 100 in a lateral direction but not scan in a longitudinal direction the case of bending of landforms, uses the case of bending that shows the landforms of fruit mountain range G on the opposite position along with the variation of its shape.
In Fig. 2, can find out that the gradient of left part is to be higher than state L2, L3, L4 from the variation of the shape of portable cord 100, and the gradient of right side part is the state L7 that is higher than after state L6 and the state L6.
And, as shown in Figure 2, be to be presented on the portable cord 100 during the movement of portable cord 100 according to the variation of the color of the change of shape of landforms height change and portable cord 100, so that user's elevation information of identification landforms easily.
For example, high landforms red display, low landforms show with blue, and middle landforms show with red and blue variation, so that the variation of landforms can be by color representation.In Fig. 2, the variation of this color is carried out according to the density of each L1 to L7 of Mobile Online point.
Although at Fig. 2, portable cord 100 moves to hole cup H from golf ball B, portable cord 100 can move to golf ball B from hole cup H.And portable cord 100 can move by side to selected lower height side between the position of the position of golf ball B and hole cup H from selected high height between the position of the position of golf ball B and hole cup H.
Although be not shown in graphic in, when portable cord 100 arrived the tail end of Mobile golf fields, portable cord 100 preferably disappeared.
Fig. 3 shows another example according to the Geomorphic Expressions of portable cord.In Fig. 3, be configured in a plurality of separator bars in the row, that is a plurality of separator bars 110,120 and 130 that are configured in predetermined interval mobile landforms with performance fruit mountain range together.
As shown in Figure 3, be configured in the separator bar 110,120 and 130 of predetermined interval through moving to state L7 from state L1 after a while, and separator bar 110,120 and 130 shape responds to the curvature of landforms and change, and separator bar 110,120 and 130 color change according to the elevation information of landforms.
In addition, separator bar 110,120 and 130 can be mobile alone with friction speed according to the gradient in fruit mountain range, uses the landforms in more various performance fruit mountain range.
Separator bar 110,120 and 130 shape, color and moving direction are to carry out according to the mechanism that is same as in essence portable cord shown in Figure 2 according to its change of moving, thereby will omit the detailed description of the operation of these separator bars.
Fig. 4 and Fig. 5 show another example according to the Geomorphic Expressions of portable cord.In Fig. 4 and Fig. 5, a plurality of portable cords produce continuously, and move with predetermined interval.
Shown in Fig. 4 (a), the first portable cord 100a produces and mobile (to the represented state of element numbers 100b), then shown in Fig. 4 (b), portable cord moves to the represented state of element numbers 100c from the represented state of element numbers 100b.
When the first portable cord moved to the represented state of element numbers 100d, shown in Fig. 5 (a), the second portable cord 200a was set up generation in starting bit.
Then, when portable cord moved to the represented state of element numbers 100e from the represented state of element numbers 100d, shown in Fig. 5 (b), the second portable cord moved to the represented state of element numbers 200b from the represented state of element numbers 200a.As a result, the Geomorphic Expressions in fruit mountain range becomes very close to each other, so that the user can confirm the landforms in fruit mountain range more effectively.
At this, " predetermined interval " refers to the time interval or apart from the interval.The first portable cord and the second portable cord can sequentially produce at the Preset Time interval.Another way is that the first portable cord and the second portable cord can sequentially produce at the predeterminable range interval.
Hereinafter, to Fig. 8, with the example of explanation according to the Geomorphic Expressions in the fruit mountain range of mobile grid, be another example via foundation image processor of the present invention Geomorphic Expressions on the fruit mountain range with reference to figure 6.
, set the specific region between the upper hole cup H of fruit mountain range G and the golf ball B, and carry out image and realize to shown in Figure 8 such as Fig. 6, so that the mobile grid 300 of default size is mobile in setting regions.That is mobile grid changes to state shown in Figure 7 from state shown in Figure 6 step by step, and changes to state shown in Figure 8 from state shown in Figure 7.
As shown in Figure 5, mobile grid 300 can be configured to the form of 4x 4 grid, yet the present invention is not limited to this.For example, mobile grid can be configured to the form (n is natural number) of n x n grid.Another way is, mobile grid can be configured to the form of asymmetric grid, such as m x n grid or n x m grid (m>n).
To shown in Figure 8, mobile grid 300 produces (300a) in the position at golf ball B place, and moves to step by step hole cup H via state 300b (Fig. 7) to state 300c (Fig. 8) such as Fig. 6.
At this moment, to shown in Figure 8, mobile grid 300 moves such as Fig. 6, and the shape of mobile grid 300 is in response to the variation of landforms curvature regional between golf ball B and the hole cup H and changes.
And to shown in Figure 8, changing according to the color of the alteration of form of landforms height change and mobile grid 300 is to be shown in mobile grid 300 during mobile grid 300 moves such as Fig. 6, so that user's elevation information of identification landforms easily.
Although in Fig. 6 to Fig. 8, mobile grid 300 moves to hole cup H from golf ball B, mobile grid 300 can move to golf ball B from hole cup H.And mobile grid 300 can move by side to selected lower height side between the position of the position of golf ball B and hole cup H from selected high height between the position of the position of golf ball B and hole cup H.
Although be not shown in graphic in, when mobile grid 300 arrived the tail end of Mobile golf fields, mobile grid 300 preferably disappeared.After mobile grid 300 disappeared, another moved grid and can regenerate.Even another way is before mobile grid 300 disappears, can regenerates another and move grid.
Fig. 9 shows another example according to the Geomorphic Expressions of mobile grid.In Fig. 9, be configured in a plurality of grid in the row, that is be configured in a plurality of the grid 310,320 and 330 of predetermined interval, mobile with performance fruit mountain range together.
As shown in Figure 9, be configured in the inferior grid 310,320 and 330 of predetermined interval through moving to state M3 from state M1 after a while, and inferior grid 310,320 and 330 shape change in response to landforms curvature, and inferior grid 310,320 and 330 color change according to the elevation information of landforms.
In addition, inferior grid 310,320 and 330 can be independently mobile with friction speed according to fruit mountain range gradient, uses the landforms in more various performance fruit mountain range.
Inferior grid 310,320 and 330 shape, color and mobile be to carry out according to the mechanism that is same as in essence mobile grid shown in Figure 5 according to its variation of moving, and therefore will omit the detailed description that separator bar operates.
Hereinafter, illustrate according to image treatment method of the present invention with reference to Figure 10.
At first, realize the image (S10) in fruit mountain range.Then, will show the zone of portable cord or mobile grid, that is the zone of the fruit mountain range landforms that will show, with image setting (S20) on the fruit mountain range.Preferably, the specific region between setting hole cup and the golf.
Then, confirm the landforms curvature information (S30) (this can extract and load corresponding geomorphology information data and identification from database) of setting regions, and the starting bit that will produce portable cord or mobile grid is put and portable cord or mobile grid with the set positions that disappears in step S20, set regional in (S40).
And, preset the color information (S50) according to the landforms elevation information of setting regions.
After default above-mentioned various information, portable cord or mobile grid set the position that will produce portable cord or mobile grid and produce (S60) in step S40.
Portable cord or mobile grid are according to pre-conditioned and move (S70).At this moment, portable cord or mobile grid change (S71) according to the landforms curvature information of confirming in step S30, and simultaneously, the color that mat portable cord or mobile grid show changes (S72) according to the color information of confirming at step S50.
When moving predeterminable range through Preset Time or portable cord or mobile grid after the mobile beginning of portable cord or mobile grid (S81), again carry out step S60, S71 and S72, so that new portable cord or mobile grid produce and be mobile.
At this moment, a plurality of portable cords or a plurality of mobile grid can produce continuously under the Preset Time interval and be mobile.Another way is that a plurality of portable cords or a plurality of mobile grid are predeterminable apart from producing continuously under the interval and moving.
When portable cord or mobile grid arrive portable cord or mobile grid with the position that disappears (S82), portable cord or mobile grid disappear (S90).
Enforcement kenel of the present invention
Various embodiment of the present invention is recorded in the embodiment.
Utilization on the industry
According to image processor and the image treatment method of performance fruit of the present invention mountain range landforms and the virtual golf analog machine that uses these apparatus and method, by the golf analog machine that uses virtual reality, can be applied to golf game or so-called screen golf industrial field that the user can enjoy the virtual golf motion.